Reduced-distortion hybrid induction heating/welding assembly

The invention claimed is: 1. A hybrid induction heating/welding assembly comprising: a metal working tool configured to perform a metal working process on at least one workpiece, wherein the metal working process generates a metal working heat profile in the at least one workpiece; and at least one induction heating coil configured to apply induction heat to the at least one workpiece, wherein the induction heat generates an induction heat profile in the at least one workpiece; wherein the metal working heat profile and the induction heat profile combine to generate a combined heat profile in the at least one workpiece, wherein the combined heat profile results in no distortion in the at least one workpiece from the metal working process; and control circuitry configured to: estimate the metal working heat profile and the induction heat profile in the at least one workpiece, to estimate the combined heat profile based on the estimated metal working heat profile and induction heat profile; and control a relative positioning of the metal working tool, the at least one induction heating coil, or both, to adjust the position of the metal working heat profile or the induction heat profile on the workpiece to minimize the distortion in the at least one workpiece. 2. The hybrid induction heating/welding assembly of claim 1 , wherein the control circuitry is configured to control the relative positioning of the metal working tool, the at least one induction heating coil, or both, by transmitting control signals to at least one robotic manipulator. 3. The hybrid induction heating/welding assembly of claim 1 , wherein the control circuitry is configured to estimate the metal working heat profile and the induction heat profile in the at least one workpiece based at least in part on feedback from one or more sensors or configuration parameters associated with the metal working process. 4. The hybrid induction heating/welding assembly of claim 3 , wherein the one or more sensors comprise one or more position-detecting sensors configured to detect relative positions of the metal working tool or the at least one induction heating coil relative to the at least one workpiece, one or more temperature sensors configured to detect temperatures proximate the at least one workpiece, or a combination thereof. 5. The hybrid induction heating/welding assembly of claim 1 , wherein the at least one workpiece comprises two workpieces that form a narrow gap. 6. The hybrid induction heating/welding assembly of claim 1 , wherein the at least one workpiece comprises two workpieces that form a T-fillet joint together. 7. The hybrid induction heating/welding assembly of claim 1 , wherein the at least one workpiece comprises two workpieces that form a butt joint together. 8. The hybrid induction heating/welding assembly of claim 1 , wherein the metal working tool comprises a welding torch. 9. The hybrid induction heating/welding assembly of claim 1 , wherein the metal working tool comprising a plasma cutting torch. 10. The hybrid induction heating/welding assembly of claim 1 , wherein the at least one induction heating coil is a first induction heating coil positioned ahead of a welding torch, the assembly further comprising a second heating coil positioned behind the welding torch to provide a heat treatment of a weld location that has been fused, and a third induction heating coil to heat the workpiece ahead or behind of the metal working process to reduce the rate of cooling of the weld to prevent metallurgical damage. 11. A hybrid induction heating/welding assembly comprising: a protective outer housing configured to move relative to at least one workpiece; a metal working tool configured to perform a metal working process on the at least one workpiece, wherein the metal forming tool is at least partially enclosed within the protective outer housing, and wherein the metal working process generates a metal working heat profile in the at least one workpiece; at least one induction heating coil configured to apply induction heat to the at least one workpiece, wherein the at least one induction heating coil is at least partially enclosed within the protective outer housing and collocated with the metal working tool, and wherein the induction heat generates an induction heat profile in the at least one workpiece; wherein the metal working heat profile and the induction heat profile combine to generate a combined heat profile in the at least one workpiece, wherein the combined heat profile results in no distortion in the at least one workpiece from the metal working process; and control circuitry configured to: estimate the metal working heat profile and the induction heat profile in the at least one workpiece, to estimate the combined heat profile based on the estimated metal working heat profile and induction heat profile; and control a relative positioning of the metal working tool, the at least one induction heating coil, or both, to minimize the distortion in the at least one workpiece. 12. The hybrid induction heating/welding assembly of claim 11 , wherein the control circuitry is configured to control the relative positioning of the metal working tool, the at least one induction heating coil, or the protective outer housing with respect to the workpiece by transmitting control signals to at least one robotic manipulator. 13. The hybrid induction heating/welding assembly of claim 11 , wherein the control circuitry estimate the metal working heat profile and the induction heat profile in the at least one workpiece based at least in part on feedback from one or more sensors or configuration parameters associated with the metal working process. 14. The hybrid induction heating/welding assembly of claim 13 , wherein the one or more sensors comprise one or more position-detecting sensors configured to detect relative positions of the metal working tool or the at least one induction heating coil relative to the at least one workpiece, one or more temperature sensors configured to detect temperatures proximate the at least one workpiece, or a combination thereof. 15. The hybrid induction heating/welding assembly of claim 11 , wherein the at least one workpiece comprises two workpieces that form a narrow gap. 16. The hybrid induction heating/welding assembly of claim 11 , wherein the at least one workpiece comprises two workpieces that form a T-fillet joint together. 17. The hybrid induction heating/welding assembly of claim 11 , wherein the at least one workpiece comprises two workpieces that form a butt joint together. 18. The hybrid induction heating/welding assembly of claim 11 , wherein the metal working tool comprises a welding torch. 19. The hybrid induction heating/welding assembly of claim 11 , wherein the metal working tool comprising a plasma cutting torch.